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href="/search/advanced?terms-0-term=Mestre%2C+E&amp;terms-0-field=author&amp;size=50&amp;order=-announced_date_first">Advanced Search</a> </div> </div> <input type="hidden" name="order" value="-announced_date_first"> <input type="hidden" name="size" value="50"> </form> <div class="level breathe-horizontal"> <div class="level-left"> <form method="GET" action="/search/"> <div style="display: none;"> <select id="searchtype" name="searchtype"><option value="all">All fields</option><option value="title">Title</option><option selected value="author">Author(s)</option><option value="abstract">Abstract</option><option value="comments">Comments</option><option value="journal_ref">Journal reference</option><option value="acm_class">ACM classification</option><option value="msc_class">MSC classification</option><option value="report_num">Report number</option><option value="paper_id">arXiv identifier</option><option value="doi">DOI</option><option value="orcid">ORCID</option><option 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name="order"><option selected value="-announced_date_first">Announcement date (newest first)</option><option value="announced_date_first">Announcement date (oldest first)</option><option value="-submitted_date">Submission date (newest first)</option><option value="submitted_date">Submission date (oldest first)</option><option value="">Relevance</option></select> </span> </div> <div class="control"> <button class="button is-small is-link">Go</button> </div> </div> </form> </div> </div> <ol class="breathe-horizontal" start="1"> <li class="arxiv-result"> <div class="is-marginless"> <p class="list-title is-inline-block"><a href="https://arxiv.org/abs/2410.21038">arXiv:2410.21038</a> <span>&nbsp;[<a href="https://arxiv.org/pdf/2410.21038">pdf</a>, <a href="https://arxiv.org/format/2410.21038">other</a>]&nbsp;</span> </p> <div class="tags is-inline-block"> <span class="tag is-small is-link tooltip is-tooltip-top" data-tooltip="High Energy Astrophysical Phenomena">astro-ph.HE</span> </div> <div class="is-inline-block" style="margin-left: 0.5rem"> <div class="tags has-addons"> <span class="tag is-dark is-size-7">doi</span> <span class="tag is-light is-size-7"><a class="" href="https://doi.org/10.1051/0004-6361/202348741">10.1051/0004-6361/202348741 <i class="fa fa-external-link" aria-hidden="true"></i></a></span> </div> </div> </div> <p class="title is-5 mathjax"> Analysis of the possible detection of the pulsar wind nebulae of PSR J1208-6238, J1341-6220, J1838-0537 and J1844-0346 </p> <p class="authors"> <span class="search-hit">Authors:</span> <a href="/search/astro-ph?searchtype=author&amp;query=Zhang%2C+W">Wei Zhang</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Torres%2C+D+F">Diego F. Torres</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Garc%C3%ADa%2C+C+R">C. R. Garc铆a</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Li%2C+J">J. Li</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Mestre%2C+E">Enrique Mestre</a> </p> <p class="abstract mathjax"> <span class="has-text-black-bis has-text-weight-semibold">Abstract</span>: <span class="abstract-short has-text-grey-dark mathjax" id="2410.21038v2-abstract-short" style="display: inline;"> Context. Pulsar wind nebulae (PWNe) are a source of very high energy radiation that can reach up to tera-electron volts and even peta-electron volts. Our work uses the pulsar tree, a graph theory tool recently presented to analyze the pulsar population and select candidates of interest. Aims. We aim to discover detectable PWNe. We also aim to test to what extent the pulsar tree is able to group&hellip; <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('2410.21038v2-abstract-full').style.display = 'inline'; document.getElementById('2410.21038v2-abstract-short').style.display = 'none';">&#9661; More</a> </span> <span class="abstract-full has-text-grey-dark mathjax" id="2410.21038v2-abstract-full" style="display: none;"> Context. Pulsar wind nebulae (PWNe) are a source of very high energy radiation that can reach up to tera-electron volts and even peta-electron volts. Our work uses the pulsar tree, a graph theory tool recently presented to analyze the pulsar population and select candidates of interest. Aims. We aim to discover detectable PWNe. We also aim to test to what extent the pulsar tree is able to group detectable PWNe despite only considering the intrinsic properties of pulsars. Methods. We selected four pulsars as tera-electron volt PWNe candidates based on their positions in the pulsar tree. Using observed and assumed ranges of values for relevant parameters, we anticipated the possible spectral energy distributions of the PWNe of four pulsars (PSR J1208-6238, J1341-6220, J1838-0537, and J1844-0346) via a detailed time-dependent leptonic model that was already found to be appropriate for describing almost all other detected nebulae. Results. We estimated the likelihood of detection for the four candidates we studied by comparing the TeV fluxes predicted by the possible models with the sensitivities of different observatories. In doing so, we provide context for analyzing the advantages and caveats of using the pulsar tree position as a marker for properties that go beyond the intrinsic features of pulsars that are considered in producing the pulsar tree. <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('2410.21038v2-abstract-full').style.display = 'none'; document.getElementById('2410.21038v2-abstract-short').style.display = 'inline';">&#9651; Less</a> </span> </p> <p class="is-size-7"><span class="has-text-black-bis has-text-weight-semibold">Submitted</span> 31 October, 2024; <span class="has-text-black-bis has-text-weight-semibold">v1</span> submitted 28 October, 2024; <span class="has-text-black-bis has-text-weight-semibold">originally announced</span> October 2024. </p> <p class="comments is-size-7"> <span class="has-text-black-bis has-text-weight-semibold">Comments:</span> <span class="has-text-grey-dark mathjax">9 pages, 6 figures</span> </p> <p class="comments is-size-7"> <span class="has-text-black-bis has-text-weight-semibold">Journal ref:</span> A&amp;A 691, A332 (2024) </p> </li> <li class="arxiv-result"> <div class="is-marginless"> <p class="list-title is-inline-block"><a href="https://arxiv.org/abs/2403.04857">arXiv:2403.04857</a> <span>&nbsp;[<a href="https://arxiv.org/pdf/2403.04857">pdf</a>, <a href="https://arxiv.org/format/2403.04857">other</a>]&nbsp;</span> </p> <div class="tags is-inline-block"> <span class="tag is-small is-link tooltip is-tooltip-top" data-tooltip="High Energy Physics - Phenomenology">hep-ph</span> <span class="tag is-small is-grey tooltip is-tooltip-top" data-tooltip="High Energy Astrophysical Phenomena">astro-ph.HE</span> <span class="tag is-small is-grey tooltip is-tooltip-top" data-tooltip="High Energy Physics - Experiment">hep-ex</span> </div> <div class="is-inline-block" style="margin-left: 0.5rem"> <div class="tags has-addons"> <span class="tag is-dark is-size-7">doi</span> <span class="tag is-light is-size-7"><a class="" href="https://doi.org/10.1088/1475-7516/2024/07/047">10.1088/1475-7516/2024/07/047 <i class="fa fa-external-link" aria-hidden="true"></i></a></span> </div> </div> </div> <p class="title is-5 mathjax"> Dark Matter Line Searches with the Cherenkov Telescope Array </p> <p class="authors"> <span class="search-hit">Authors:</span> <a href="/search/astro-ph?searchtype=author&amp;query=Abe%2C+S">S. Abe</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Abhir%2C+J">J. Abhir</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Abhishek%2C+A">A. Abhishek</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Acero%2C+F">F. Acero</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Acharyya%2C+A">A. Acharyya</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Adam%2C+R">R. Adam</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Aguasca-Cabot%2C+A">A. Aguasca-Cabot</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Agudo%2C+I">I. Agudo</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Aguirre-Santaella%2C+A">A. Aguirre-Santaella</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Alfaro%2C+J">J. Alfaro</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Alfaro%2C+R">R. Alfaro</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Alvarez-Crespo%2C+N">N. Alvarez-Crespo</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Batista%2C+R+A">R. Alves Batista</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Amans%2C+J+-">J. -P. Amans</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Amato%2C+E">E. Amato</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Ambrosi%2C+G">G. Ambrosi</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Angel%2C+L">L. Angel</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Aramo%2C+C">C. Aramo</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Arcaro%2C+C">C. Arcaro</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Arnesen%2C+T+T+H">T. T. H. Arnesen</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Arrabito%2C+L">L. Arrabito</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Asano%2C+K">K. Asano</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Ascasibar%2C+Y">Y. Ascasibar</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Aschersleben%2C+J">J. Aschersleben</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Ashkar%2C+H">H. Ashkar</a> , et al. (540 additional authors not shown) </p> <p class="abstract mathjax"> <span class="has-text-black-bis has-text-weight-semibold">Abstract</span>: <span class="abstract-short has-text-grey-dark mathjax" id="2403.04857v2-abstract-short" style="display: inline;"> Monochromatic gamma-ray signals constitute a potential smoking gun signature for annihilating or decaying dark matter particles that could relatively easily be distinguished from astrophysical or instrumental backgrounds. We provide an updated assessment of the sensitivity of the Cherenkov Telescope Array (CTA) to such signals, based on observations of the Galactic centre region as well as of sele&hellip; <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('2403.04857v2-abstract-full').style.display = 'inline'; document.getElementById('2403.04857v2-abstract-short').style.display = 'none';">&#9661; More</a> </span> <span class="abstract-full has-text-grey-dark mathjax" id="2403.04857v2-abstract-full" style="display: none;"> Monochromatic gamma-ray signals constitute a potential smoking gun signature for annihilating or decaying dark matter particles that could relatively easily be distinguished from astrophysical or instrumental backgrounds. We provide an updated assessment of the sensitivity of the Cherenkov Telescope Array (CTA) to such signals, based on observations of the Galactic centre region as well as of selected dwarf spheroidal galaxies. We find that current limits and detection prospects for dark matter masses above 300 GeV will be significantly improved, by up to an order of magnitude in the multi-TeV range. This demonstrates that CTA will set a new standard for gamma-ray astronomy also in this respect, as the world&#39;s largest and most sensitive high-energy gamma-ray observatory, in particular due to its exquisite energy resolution at TeV energies and the adopted observational strategy focussing on regions with large dark matter densities. Throughout our analysis, we use up-to-date instrument response functions, and we thoroughly model the effect of instrumental systematic uncertainties in our statistical treatment. We further present results for other potential signatures with sharp spectral features, e.g.~box-shaped spectra, that would likewise very clearly point to a particle dark matter origin. <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('2403.04857v2-abstract-full').style.display = 'none'; document.getElementById('2403.04857v2-abstract-short').style.display = 'inline';">&#9651; Less</a> </span> </p> <p class="is-size-7"><span class="has-text-black-bis has-text-weight-semibold">Submitted</span> 23 July, 2024; <span class="has-text-black-bis has-text-weight-semibold">v1</span> submitted 7 March, 2024; <span class="has-text-black-bis has-text-weight-semibold">originally announced</span> March 2024. </p> <p class="comments is-size-7"> <span class="has-text-black-bis has-text-weight-semibold">Comments:</span> <span class="has-text-grey-dark mathjax">44 pages JCAP style (excluding author list and references), 19 figures; minor changes to match published version</span> </p> <p class="comments is-size-7"> <span class="has-text-black-bis has-text-weight-semibold">Journal ref:</span> JCAP 07 (2024) 047 </p> </li> <li class="arxiv-result"> <div class="is-marginless"> <p class="list-title is-inline-block"><a href="https://arxiv.org/abs/2310.07413">arXiv:2310.07413</a> <span>&nbsp;[<a href="https://arxiv.org/pdf/2310.07413">pdf</a>, <a href="https://arxiv.org/format/2310.07413">other</a>]&nbsp;</span> </p> <div class="tags is-inline-block"> <span class="tag is-small is-link tooltip is-tooltip-top" data-tooltip="High Energy Astrophysical Phenomena">astro-ph.HE</span> </div> </div> <p class="title is-5 mathjax"> Chasing Gravitational Waves with the Cherenkov Telescope Array </p> <p class="authors"> <span class="search-hit">Authors:</span> <a href="/search/astro-ph?searchtype=author&amp;query=Green%2C+J+G">Jarred Gershon Green</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Carosi%2C+A">Alessandro Carosi</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Nava%2C+L">Lara Nava</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Patricelli%2C+B">Barbara Patricelli</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Sch%C3%BCssler%2C+F">Fabian Sch眉ssler</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Seglar-Arroyo%2C+M">Monica Seglar-Arroyo</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Consortium%2C+C">Cta Consortium</a>, <a href="/search/astro-ph?searchtype=author&amp;query=%3A"> :</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Abe%2C+K">Kazuki Abe</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Abe%2C+S">Shotaro Abe</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Acharyya%2C+A">Atreya Acharyya</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Adam%2C+R">Remi Adam</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Aguasca-Cabot%2C+A">Arnau Aguasca-Cabot</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Agudo%2C+I">Ivan Agudo</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Alfaro%2C+J">Jorge Alfaro</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Alvarez-Crespo%2C+N">Nuria Alvarez-Crespo</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Batista%2C+R+A">Rafael Alves Batista</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Amans%2C+J">Jean-Philippe Amans</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Amato%2C+E">Elena Amato</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Ambrosino%2C+F">Filippo Ambrosino</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Ang%C3%BCner%2C+E+O">Ekrem Oguzhan Ang眉ner</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Antonelli%2C+L+A">Lucio Angelo Antonelli</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Aramo%2C+C">Carla Aramo</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Arcaro%2C+C">Cornelia Arcaro</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Arrabito%2C+L">Luisa Arrabito</a> , et al. (545 additional authors not shown) </p> <p class="abstract mathjax"> <span class="has-text-black-bis has-text-weight-semibold">Abstract</span>: <span class="abstract-short has-text-grey-dark mathjax" id="2310.07413v3-abstract-short" style="display: inline;"> The detection of gravitational waves from a binary neutron star merger by Advanced LIGO and Advanced Virgo (GW170817), along with the discovery of the electromagnetic counterparts of this gravitational wave event, ushered in a new era of multimessenger astronomy, providing the first direct evidence that BNS mergers are progenitors of short gamma-ray bursts (GRBs). Such events may also produce very&hellip; <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('2310.07413v3-abstract-full').style.display = 'inline'; document.getElementById('2310.07413v3-abstract-short').style.display = 'none';">&#9661; More</a> </span> <span class="abstract-full has-text-grey-dark mathjax" id="2310.07413v3-abstract-full" style="display: none;"> The detection of gravitational waves from a binary neutron star merger by Advanced LIGO and Advanced Virgo (GW170817), along with the discovery of the electromagnetic counterparts of this gravitational wave event, ushered in a new era of multimessenger astronomy, providing the first direct evidence that BNS mergers are progenitors of short gamma-ray bursts (GRBs). Such events may also produce very-high-energy (VHE, &gt; 100GeV) photons which have yet to be detected in coincidence with a gravitational wave signal. The Cherenkov Telescope Array (CTA) is a next-generation VHE observatory which aims to be indispensable in this search, with an unparalleled sensitivity and ability to slew anywhere on the sky within a few tens of seconds. New observing modes and follow-up strategies are being developed for CTA to rapidly cover localization areas of gravitational wave events that are typically larger than the CTA field of view. This work will evaluate and provide estimations on the expected number of of gravitational wave events that will be observable with CTA, considering both on- and off-axis emission. In addition, we will present and discuss the prospects of potential follow-up strategies with CTA. <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('2310.07413v3-abstract-full').style.display = 'none'; document.getElementById('2310.07413v3-abstract-short').style.display = 'inline';">&#9651; Less</a> </span> </p> <p class="is-size-7"><span class="has-text-black-bis has-text-weight-semibold">Submitted</span> 5 February, 2024; <span class="has-text-black-bis has-text-weight-semibold">v1</span> submitted 11 October, 2023; <span class="has-text-black-bis has-text-weight-semibold">originally announced</span> October 2023. </p> <p class="comments is-size-7"> <span class="has-text-black-bis has-text-weight-semibold">Comments:</span> <span class="has-text-grey-dark mathjax">Presented at the 38th International Cosmic Ray Conference (ICRC 2023), 2023 (arXiv:2309.08219)</span> </p> <p class="comments is-size-7"> <span class="has-text-black-bis has-text-weight-semibold">Report number:</span> CTA-ICRC/2023/30 </p> </li> <li class="arxiv-result"> <div class="is-marginless"> <p class="list-title is-inline-block"><a href="https://arxiv.org/abs/2308.12142">arXiv:2308.12142</a> <span>&nbsp;[<a href="https://arxiv.org/pdf/2308.12142">pdf</a>]&nbsp;</span> </p> <div class="tags is-inline-block"> <span class="tag is-small is-link tooltip is-tooltip-top" data-tooltip="High Energy Astrophysical Phenomena">astro-ph.HE</span> </div> <div class="is-inline-block" style="margin-left: 0.5rem"> <div class="tags has-addons"> <span class="tag is-dark is-size-7">doi</span> <span class="tag is-light is-size-7"><a class="" href="https://doi.org/10.1093/mnras/stad2029">10.1093/mnras/stad2029 <i class="fa fa-external-link" aria-hidden="true"></i></a></span> </div> </div> </div> <p class="title is-5 mathjax"> $纬$-ray detection from occasional flares in T Tauri stars of NGC 2071. I. Observational connection </p> <p class="authors"> <span class="search-hit">Authors:</span> <a href="/search/astro-ph?searchtype=author&amp;query=Fil%C3%B3como%2C+A">A. Fil贸como</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Colombo%2C+J+F+A">J. F. Albacete Colombo</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Mestre%2C+E">E. Mestre</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Pellizza%2C+L+J">L. J. Pellizza</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Combi%2C+J+A">J. A. Combi</a> </p> <p class="abstract mathjax"> <span class="has-text-black-bis has-text-weight-semibold">Abstract</span>: <span class="abstract-short has-text-grey-dark mathjax" id="2308.12142v1-abstract-short" style="display: inline;"> NGC 2071 is a star-forming region that overlaps with three $纬$-ray sources detected by the Fermi Space Telescope. We propose that strong flare activity in T Tauri stars could produce $纬$-ray emission in a way that makes them a counterpart to some unidentified sources detected by the Large Area Telescope aboard the Fermi satellite. We have performed a spectral and temporal analysis for two Fermi da&hellip; <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('2308.12142v1-abstract-full').style.display = 'inline'; document.getElementById('2308.12142v1-abstract-short').style.display = 'none';">&#9661; More</a> </span> <span class="abstract-full has-text-grey-dark mathjax" id="2308.12142v1-abstract-full" style="display: none;"> NGC 2071 is a star-forming region that overlaps with three $纬$-ray sources detected by the Fermi Space Telescope. We propose that strong flare activity in T Tauri stars could produce $纬$-ray emission in a way that makes them a counterpart to some unidentified sources detected by the Large Area Telescope aboard the Fermi satellite. We have performed a spectral and temporal analysis for two Fermi data sets: the first 2 yr and the entire 14 yr of observations. We have found that the $纬$-ray source is detectable at 3.2$蟽$ above the background at energies above 100 GeV during the first 2 yr of observation. The analysis of the expected frequency of the highest energy flares occurring in T Tauri stars is consistent with our estimate. In addition, we have determined the minimum energy of the flare that would produce $纬$-ray emission, which is $\sim 5 \times 10^{37}$ erg. This agreement becomes a hard observational constraint supporting previous hypotheses about rare flares as the origin of unidentified $纬$-ray sources in star-forming regions. <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('2308.12142v1-abstract-full').style.display = 'none'; document.getElementById('2308.12142v1-abstract-short').style.display = 'inline';">&#9651; Less</a> </span> </p> <p class="is-size-7"><span class="has-text-black-bis has-text-weight-semibold">Submitted</span> 23 August, 2023; <span class="has-text-black-bis has-text-weight-semibold">originally announced</span> August 2023. </p> <p class="comments is-size-7"> <span class="has-text-black-bis has-text-weight-semibold">Comments:</span> <span class="has-text-grey-dark mathjax">5 pages, 4 figures</span> </p> <p class="comments is-size-7"> <span class="has-text-black-bis has-text-weight-semibold">Journal ref:</span> Volume 525, Issue 2, October 2023, Pages 1726 1730 </p> </li> <li class="arxiv-result"> <div class="is-marginless"> <p class="list-title is-inline-block"><a href="https://arxiv.org/abs/2211.15245">arXiv:2211.15245</a> <span>&nbsp;[<a href="https://arxiv.org/pdf/2211.15245">pdf</a>, <a href="https://arxiv.org/format/2211.15245">other</a>]&nbsp;</span> </p> <div class="tags is-inline-block"> <span class="tag is-small is-link tooltip is-tooltip-top" data-tooltip="High Energy Astrophysical Phenomena">astro-ph.HE</span> </div> <div class="is-inline-block" style="margin-left: 0.5rem"> <div class="tags has-addons"> <span class="tag is-dark is-size-7">doi</span> <span class="tag is-light is-size-7"><a class="" href="https://doi.org/10.1093/mnras/stac3296">10.1093/mnras/stac3296 <i class="fa fa-external-link" aria-hidden="true"></i></a></span> </div> </div> </div> <p class="title is-5 mathjax"> A blazar candidate for the Fermi source 4FGL J1848.7-0129 </p> <p class="authors"> <span class="search-hit">Authors:</span> <a href="/search/astro-ph?searchtype=author&amp;query=Luque-Escamilla%2C+P+L">Pedro L. Luque-Escamilla</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Mart%C3%AD%2C+J">Josep Mart铆</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Mestre%2C+E">Enrique Mestre</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Combi%2C+J+A">Jorge A. Combi</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Albacete-Colombo%2C+J+F">Juan F. Albacete-Colombo</a> </p> <p class="abstract mathjax"> <span class="has-text-black-bis has-text-weight-semibold">Abstract</span>: <span class="abstract-short has-text-grey-dark mathjax" id="2211.15245v1-abstract-short" style="display: inline;"> The Fermi source 4FGL J1848.7-0129 has been historically related to the globular cluster GLIMPSE-C01 since its very first detection. Although this association is widely accepted, as it appears in the most recent Fermi catalog, it deserves to be revisited given the multi-wavelength evidences and the recent discovery of variable X-ray sources in the Fermi source region. In particular, low frequency&hellip; <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('2211.15245v1-abstract-full').style.display = 'inline'; document.getElementById('2211.15245v1-abstract-short').style.display = 'none';">&#9661; More</a> </span> <span class="abstract-full has-text-grey-dark mathjax" id="2211.15245v1-abstract-full" style="display: none;"> The Fermi source 4FGL J1848.7-0129 has been historically related to the globular cluster GLIMPSE-C01 since its very first detection. Although this association is widely accepted, as it appears in the most recent Fermi catalog, it deserves to be revisited given the multi-wavelength evidences and the recent discovery of variable X-ray sources in the Fermi source region. In particular, low frequency radio maps from the Giant Metre Radio Telescope in Pune (India) have been carefully inspected which, together with X-ray data re-analysis from Chandra, lead us to get a deep insight into the candidates to be associated to 4FGL J1848.7-0129. This results in the discovery of a new X-ray variable point source coincident with an unreported non-thermal radio emitter, both of them well inside the 4FGL J1848.7-0129 error ellipse. We analyze and discuss all these observational facts, and we propose now a newly discovered blazar candidate as the most promising responsible for the gamma ray emission in the Fermi source. If confirmed, this result would set constrains on the number of millisecond pulsars in GLIMPSE-C01 or their gamma-ray emission properties. <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('2211.15245v1-abstract-full').style.display = 'none'; document.getElementById('2211.15245v1-abstract-short').style.display = 'inline';">&#9651; Less</a> </span> </p> <p class="is-size-7"><span class="has-text-black-bis has-text-weight-semibold">Submitted</span> 28 November, 2022; <span class="has-text-black-bis has-text-weight-semibold">originally announced</span> November 2022. </p> <p class="comments is-size-7"> <span class="has-text-black-bis has-text-weight-semibold">Comments:</span> <span class="has-text-grey-dark mathjax">6 pages - 5 figures - 1 table - To appear in MNRAS</span> </p> </li> <li class="arxiv-result"> <div class="is-marginless"> <p class="list-title is-inline-block"><a href="https://arxiv.org/abs/2210.04344">arXiv:2210.04344</a> <span>&nbsp;[<a href="https://arxiv.org/pdf/2210.04344">pdf</a>, <a href="https://arxiv.org/format/2210.04344">other</a>]&nbsp;</span> </p> <div class="tags is-inline-block"> <span class="tag is-small is-link tooltip is-tooltip-top" data-tooltip="High Energy Astrophysical Phenomena">astro-ph.HE</span> </div> <div class="is-inline-block" style="margin-left: 0.5rem"> <div class="tags has-addons"> <span class="tag is-dark is-size-7">doi</span> <span class="tag is-light is-size-7"><a class="" href="https://doi.org/10.1093/mnras/stac2910">10.1093/mnras/stac2910 <i class="fa fa-external-link" aria-hidden="true"></i></a></span> </div> </div> </div> <p class="title is-5 mathjax"> Testing source confusion and identification capability in Cherenkov Telescope Array data </p> <p class="authors"> <span class="search-hit">Authors:</span> <a href="/search/astro-ph?searchtype=author&amp;query=Mestre%2C+E">Enrique Mestre</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Torres%2C+D+F">Diego F. Torres</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Wilhelmi%2C+E+d+O">Emma de O帽a Wilhelmi</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Mart%C3%AD%2C+J">Josep Mart铆</a> </p> <p class="abstract mathjax"> <span class="has-text-black-bis has-text-weight-semibold">Abstract</span>: <span class="abstract-short has-text-grey-dark mathjax" id="2210.04344v1-abstract-short" style="display: inline;"> The Cherenkov Telescope Array will provide the deepest survey of the Galactic Plane performed at very-high-energy gamma-rays. Consequently, this survey will unavoidably face the challenge of source confusion, i.e., the non-unique attribution of signal to a source due to multiple overlapping sources. Among the known populations of Galactic gamma-ray sources and given their extension and number, pul&hellip; <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('2210.04344v1-abstract-full').style.display = 'inline'; document.getElementById('2210.04344v1-abstract-short').style.display = 'none';">&#9661; More</a> </span> <span class="abstract-full has-text-grey-dark mathjax" id="2210.04344v1-abstract-full" style="display: none;"> The Cherenkov Telescope Array will provide the deepest survey of the Galactic Plane performed at very-high-energy gamma-rays. Consequently, this survey will unavoidably face the challenge of source confusion, i.e., the non-unique attribution of signal to a source due to multiple overlapping sources. Among the known populations of Galactic gamma-ray sources and given their extension and number, pulsar wind nebulae (PWNe, and PWN TeV halos) will be the most affected. We aim to probe source confusion of TeV PWNe in forthcoming CTA data. For this purpose, we performed and analyzed simulations of artificially confused PWNe with CTA. As a basis for our simulations, we applied our study to TeV data collected from the H.E.S.S. Galactic Plane Survey for ten extended and two point-like firmly identified PWNe, probing various configurations of source confusion involving different projected separations, relative orientations, flux levels, and extensions among sources. Source confusion, defined here to appear when the sum of the Gaussian width of two sources is larger than the separation between their centroids, occurred in $\sim$30% of the simulations. For this sample and 0.5$掳$ of average separation between sources, we found that CTA can likely resolve up to 60% of those confused sources above 500 GeV. Finally, we also considered simulations of isolated extended sources to see how well they could be matched to a library of morphological templates. The outcome of the simulations indicates a remarkable capability (more than 95% of the cases studied) to match a simulation with the correct input template in its proper orientation. <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('2210.04344v1-abstract-full').style.display = 'none'; document.getElementById('2210.04344v1-abstract-short').style.display = 'inline';">&#9651; Less</a> </span> </p> <p class="is-size-7"><span class="has-text-black-bis has-text-weight-semibold">Submitted</span> 9 October, 2022; <span class="has-text-black-bis has-text-weight-semibold">originally announced</span> October 2022. </p> <p class="comments is-size-7"> <span class="has-text-black-bis has-text-weight-semibold">Comments:</span> <span class="has-text-grey-dark mathjax">In press in MNRAS</span> </p> </li> <li class="arxiv-result"> <div class="is-marginless"> <p class="list-title is-inline-block"><a href="https://arxiv.org/abs/2205.05380">arXiv:2205.05380</a> <span>&nbsp;[<a href="https://arxiv.org/pdf/2205.05380">pdf</a>, <a href="https://arxiv.org/format/2205.05380">other</a>]&nbsp;</span> </p> <div class="tags is-inline-block"> <span class="tag is-small is-link tooltip is-tooltip-top" data-tooltip="High Energy Astrophysical Phenomena">astro-ph.HE</span> </div> <div class="is-inline-block" style="margin-left: 0.5rem"> <div class="tags has-addons"> <span class="tag is-dark is-size-7">doi</span> <span class="tag is-light is-size-7"><a class="" href="https://doi.org/10.1051/0004-6361/202243318">10.1051/0004-6361/202243318 <i class="fa fa-external-link" aria-hidden="true"></i></a></span> </div> </div> </div> <p class="title is-5 mathjax"> Optical microflares in LS I +61 303 and the search for their multiwavelength counterpart </p> <p class="authors"> <span class="search-hit">Authors:</span> <a href="/search/astro-ph?searchtype=author&amp;query=Mestre%2C+E">Enrique Mestre</a>, <a href="/search/astro-ph?searchtype=author&amp;query=S%C3%A1nchez-Ayaso%2C+E">Estrella S谩nchez-Ayaso</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Luque-Escamilla%2C+P+L">Pedro L. Luque-Escamilla</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Mart%C3%AD%2C+J">Josep Mart铆</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Paredes%2C+J+M">Josep M. Paredes</a>, <a href="/search/astro-ph?searchtype=author&amp;query=del+Ser%2C+D">Daniel del Ser</a>, <a href="/search/astro-ph?searchtype=author&amp;query=N%C3%BA%C3%B1ez%2C+J">Jorge N煤帽ez</a> </p> <p class="abstract mathjax"> <span class="has-text-black-bis has-text-weight-semibold">Abstract</span>: <span class="abstract-short has-text-grey-dark mathjax" id="2205.05380v1-abstract-short" style="display: inline;"> Stellar sources of gamma rays are one of the front lines in modern astrophysics whose understanding can benefit from observational tools not originally designed for their study. We take advantage of the high precision photometric capabilities of present-day space facilities to obtain a new perspective on the optical behavior of the X-ray and gamma-ray binary LS I +61 303. Previously unknown phenom&hellip; <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('2205.05380v1-abstract-full').style.display = 'inline'; document.getElementById('2205.05380v1-abstract-short').style.display = 'none';">&#9661; More</a> </span> <span class="abstract-full has-text-grey-dark mathjax" id="2205.05380v1-abstract-full" style="display: none;"> Stellar sources of gamma rays are one of the front lines in modern astrophysics whose understanding can benefit from observational tools not originally designed for their study. We take advantage of the high precision photometric capabilities of present-day space facilities to obtain a new perspective on the optical behavior of the X-ray and gamma-ray binary LS I +61 303. Previously unknown phenomena whose effects manifest with amplitudes below 0.01 magnitude can now be clearly observed and studied. Our work is mainly based on the analysis of optical and gamma-ray archival data and uses the tools recommended by the different collaborations that provide these valuable observational resources (in particular, the TESS and Fermi orbiting observatories). In addition, complementary ground-based optical spectroscopy has also been conducted. We report the discovery of small-amplitude optical flares on timescales of a day in the LS I +61 303 light curve. Different alternative scenarios to explain their origin are tentatively proposed. <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('2205.05380v1-abstract-full').style.display = 'none'; document.getElementById('2205.05380v1-abstract-short').style.display = 'inline';">&#9651; Less</a> </span> </p> <p class="is-size-7"><span class="has-text-black-bis has-text-weight-semibold">Submitted</span> 11 May, 2022; <span class="has-text-black-bis has-text-weight-semibold">originally announced</span> May 2022. </p> <p class="comments is-size-7"> <span class="has-text-black-bis has-text-weight-semibold">Comments:</span> <span class="has-text-grey-dark mathjax">In press in Astronomy &amp; Astrophysics. 6 pages, 5 figures</span> </p> <p class="comments is-size-7"> <span class="has-text-black-bis has-text-weight-semibold">Journal ref:</span> A&amp;A 662, A27 (2022) </p> </li> <li class="arxiv-result"> <div class="is-marginless"> <p class="list-title is-inline-block"><a href="https://arxiv.org/abs/2109.07823">arXiv:2109.07823</a> <span>&nbsp;[<a href="https://arxiv.org/pdf/2109.07823">pdf</a>, <a href="https://arxiv.org/format/2109.07823">other</a>]&nbsp;</span> </p> <div class="tags is-inline-block"> <span class="tag is-small is-link tooltip is-tooltip-top" data-tooltip="High Energy Astrophysical Phenomena">astro-ph.HE</span> </div> </div> <p class="title is-5 mathjax"> Probing the hadronic nature of the gamma-ray emission associated with Westerlund 2 </p> <p class="authors"> <span class="search-hit">Authors:</span> <a href="/search/astro-ph?searchtype=author&amp;query=Wilhelmi%2C+E+d+O">Emma de Ona Wilhelmi</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Mestre%2C+E">Enrique Mestre</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Torres%2C+D+F">Diego F. Torres</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Holch%2C+T+L">Tim Lukas Holch</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Schwanke%2C+U">Ullrich Schwanke</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Aharonian%2C+F">Felix Aharonian</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Parkinson%2C+P+S">Pablo Saz Parkinson</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Yang%2C+R">Ruizhi Yang</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Zanin%2C+R">Roberta Zanin</a> </p> <p class="abstract mathjax"> <span class="has-text-black-bis has-text-weight-semibold">Abstract</span>: <span class="abstract-short has-text-grey-dark mathjax" id="2109.07823v1-abstract-short" style="display: inline;"> Star-forming regions have been proposed as potential Galactic cosmic-ray accelerators for decades. Cosmic ray acceleration can be probed through observations of gamma-rays produced in inelastic proton-proton collisions, at GeV and TeV energies. We analyze more than 11 years of Fermi-LAT data from the direction of Westerlund 2, one of the most massive and best-studied star-forming regions in our Ga&hellip; <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('2109.07823v1-abstract-full').style.display = 'inline'; document.getElementById('2109.07823v1-abstract-short').style.display = 'none';">&#9661; More</a> </span> <span class="abstract-full has-text-grey-dark mathjax" id="2109.07823v1-abstract-full" style="display: none;"> Star-forming regions have been proposed as potential Galactic cosmic-ray accelerators for decades. Cosmic ray acceleration can be probed through observations of gamma-rays produced in inelastic proton-proton collisions, at GeV and TeV energies. We analyze more than 11 years of Fermi-LAT data from the direction of Westerlund 2, one of the most massive and best-studied star-forming regions in our Galaxy. The spectral and morphological characteristics of the LAT source agree with the ones in the TeV regime (HESS J1023-575), allowing the description of the gamma-ray source from a few hundreds of MeV to a few tens of TeVs. We will present the results and discuss the implications of the identification with the stellar cluster and the radiation mechanism involved. <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('2109.07823v1-abstract-full').style.display = 'none'; document.getElementById('2109.07823v1-abstract-short').style.display = 'inline';">&#9651; Less</a> </span> </p> <p class="is-size-7"><span class="has-text-black-bis has-text-weight-semibold">Submitted</span> 16 September, 2021; <span class="has-text-black-bis has-text-weight-semibold">originally announced</span> September 2021. </p> <p class="comments is-size-7"> <span class="has-text-black-bis has-text-weight-semibold">Comments:</span> <span class="has-text-grey-dark mathjax">Proceeding for contribution to the 37th International Cosmic Ray Conference (ICRC2021)</span> </p> </li> <li class="arxiv-result"> <div class="is-marginless"> <p class="list-title is-inline-block"><a href="https://arxiv.org/abs/2108.03911">arXiv:2108.03911</a> <span>&nbsp;[<a href="https://arxiv.org/pdf/2108.03911">pdf</a>, <a href="https://arxiv.org/ps/2108.03911">ps</a>, <a href="https://arxiv.org/format/2108.03911">other</a>]&nbsp;</span> </p> <div class="tags is-inline-block"> <span class="tag is-small is-link tooltip is-tooltip-top" data-tooltip="High Energy Astrophysical Phenomena">astro-ph.HE</span> </div> <div class="is-inline-block" style="margin-left: 0.5rem"> <div class="tags has-addons"> <span class="tag is-dark is-size-7">doi</span> <span class="tag is-light is-size-7"><a class="" href="https://doi.org/10.22323/1.395.0784">10.22323/1.395.0784 <i class="fa fa-external-link" aria-hidden="true"></i></a></span> </div> </div> </div> <p class="title is-5 mathjax"> Prospects for Galactic transient sources detection with the Cherenkov Telescope Array </p> <p class="authors"> <span class="search-hit">Authors:</span> <a href="/search/astro-ph?searchtype=author&amp;query=L%C3%B3pez-Oramas%2C+A">A. L贸pez-Oramas</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Bulgarelli%2C+A">A. Bulgarelli</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Chaty%2C+S">S. Chaty</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Chernyakova%2C+M">M. Chernyakova</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Gnatyk%2C+R">R. Gnatyk</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Hnatyk%2C+B">B. Hnatyk</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Kantzas%2C+D">D. Kantzas</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Markoff%2C+S">S. Markoff</a>, <a href="/search/astro-ph?searchtype=author&amp;query=McKeague%2C+S">S. McKeague</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Mereghetti%2C+S">S. Mereghetti</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Mestre%2C+E">E. Mestre</a>, <a href="/search/astro-ph?searchtype=author&amp;query=di+Piano%2C+A">A. di Piano</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Romano%2C+P">P. Romano</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Sadeh%2C+I">I. Sadeh</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Sergijenko%2C+O">O. Sergijenko</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Sidoli%2C+L">L. Sidoli</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Spolon%2C+A">A. Spolon</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Wilhelmi%2C+E+d+O">E. de O帽a Wilhelmi</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Piano%2C+G">G. Piano</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Zampieri%2C+L">L. Zampieri</a> </p> <p class="abstract mathjax"> <span class="has-text-black-bis has-text-weight-semibold">Abstract</span>: <span class="abstract-short has-text-grey-dark mathjax" id="2108.03911v1-abstract-short" style="display: inline;"> Several types of Galactic sources, like magnetars, microquasars, novae or pulsar wind nebulae flares, display transient emission in the X-ray band. Some of these sources have also shown emission at MeV--GeV energies. However, none of these Galactic transients have ever been detected in the very-high-energy (VHE; E$&gt;$100 GeV) regime by any Imaging Air Cherenkov Telescope (IACT). The Galactic Transi&hellip; <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('2108.03911v1-abstract-full').style.display = 'inline'; document.getElementById('2108.03911v1-abstract-short').style.display = 'none';">&#9661; More</a> </span> <span class="abstract-full has-text-grey-dark mathjax" id="2108.03911v1-abstract-full" style="display: none;"> Several types of Galactic sources, like magnetars, microquasars, novae or pulsar wind nebulae flares, display transient emission in the X-ray band. Some of these sources have also shown emission at MeV--GeV energies. However, none of these Galactic transients have ever been detected in the very-high-energy (VHE; E$&gt;$100 GeV) regime by any Imaging Air Cherenkov Telescope (IACT). The Galactic Transient task force is a part of the Transient Working group of the Cherenkov Telescope Array (CTA) Consortium. The task force investigates the prospects of detecting the VHE counterpart of such sources, as well as their study following Target of Opportunity (ToO) observations. In this contribution, we will show some of the results of exploring the capabilities of CTA to detect and observe Galactic transients; we assume different array configurations and observing strategies. <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('2108.03911v1-abstract-full').style.display = 'none'; document.getElementById('2108.03911v1-abstract-short').style.display = 'inline';">&#9651; Less</a> </span> </p> <p class="is-size-7"><span class="has-text-black-bis has-text-weight-semibold">Submitted</span> 9 August, 2021; <span class="has-text-black-bis has-text-weight-semibold">originally announced</span> August 2021. </p> <p class="comments is-size-7"> <span class="has-text-black-bis has-text-weight-semibold">Comments:</span> <span class="has-text-grey-dark mathjax">37th International Cosmic Ray Conference (ICRC2021)</span> </p> </li> <li class="arxiv-result"> <div class="is-marginless"> <p class="list-title is-inline-block"><a href="https://arxiv.org/abs/2106.03621">arXiv:2106.03621</a> <span>&nbsp;[<a href="https://arxiv.org/pdf/2106.03621">pdf</a>, <a href="https://arxiv.org/format/2106.03621">other</a>]&nbsp;</span> </p> <div class="tags is-inline-block"> <span class="tag is-small is-link tooltip is-tooltip-top" data-tooltip="High Energy Astrophysical Phenomena">astro-ph.HE</span> </div> </div> <p class="title is-5 mathjax"> Multi-messenger and transient astrophysics with the Cherenkov Telescope Array </p> <p class="authors"> <span class="search-hit">Authors:</span> <a href="/search/astro-ph?searchtype=author&amp;query=Bo%C5%A1njak%2C+%C5%BD">沤. Bo拧njak</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Brown%2C+A+M">A. M. Brown</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Carosi%2C+A">A. Carosi</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Chernyakova%2C+M">M. Chernyakova</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Cristofari%2C+P">P. Cristofari</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Longo%2C+F">F. Longo</a>, <a href="/search/astro-ph?searchtype=author&amp;query=L%C3%B3pez-Oramas%2C+A">A. L贸pez-Oramas</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Santander%2C+M">M. Santander</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Satalecka%2C+K">K. Satalecka</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Sch%C3%BCssler%2C+F">F. Sch眉ssler</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Sergijenko%2C+O">O. Sergijenko</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Stamerra%2C+A">A. Stamerra</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Agudo%2C+I">I. Agudo</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Batista%2C+R+A">R. Alves Batista</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Amato%2C+E">E. Amato</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Anguner%2C+E+O">E. O. Anguner</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Antonelli%2C+L+A">L. A. Antonelli</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Backes%2C+M">M. Backes</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Balazs%2C+C">Csaba Balazs</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Baroncelli%2C+L">L. Baroncelli</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Tjus%2C+J+B">J. Becker Tjus</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Bigongiari%2C+C">C. Bigongiari</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Bissaldi%2C+E">E. Bissaldi</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Boisson%2C+C">C. Boisson</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Bolmont%2C+J">J. Bolmont</a> , et al. (120 additional authors not shown) </p> <p class="abstract mathjax"> <span class="has-text-black-bis has-text-weight-semibold">Abstract</span>: <span class="abstract-short has-text-grey-dark mathjax" id="2106.03621v1-abstract-short" style="display: inline;"> The discovery of gravitational waves, high-energy neutrinos or the very-high-energy counterpart of gamma-ray bursts has revolutionized the high-energy and transient astrophysics community. The development of new instruments and analysis techniques will allow the discovery and/or follow-up of new transient sources. We describe the prospects for the Cherenkov Telescope Array (CTA), the next-generati&hellip; <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('2106.03621v1-abstract-full').style.display = 'inline'; document.getElementById('2106.03621v1-abstract-short').style.display = 'none';">&#9661; More</a> </span> <span class="abstract-full has-text-grey-dark mathjax" id="2106.03621v1-abstract-full" style="display: none;"> The discovery of gravitational waves, high-energy neutrinos or the very-high-energy counterpart of gamma-ray bursts has revolutionized the high-energy and transient astrophysics community. The development of new instruments and analysis techniques will allow the discovery and/or follow-up of new transient sources. We describe the prospects for the Cherenkov Telescope Array (CTA), the next-generation ground-based gamma-ray observatory, for multi-messenger and transient astrophysics in the decade ahead. CTA will explore the most extreme environments via very-high-energy observations of compact objects, stellar collapse events, mergers and cosmic-ray accelerators. <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('2106.03621v1-abstract-full').style.display = 'none'; document.getElementById('2106.03621v1-abstract-short').style.display = 'inline';">&#9651; Less</a> </span> </p> <p class="is-size-7"><span class="has-text-black-bis has-text-weight-semibold">Submitted</span> 7 June, 2021; <span class="has-text-black-bis has-text-weight-semibold">originally announced</span> June 2021. </p> <p class="comments is-size-7"> <span class="has-text-black-bis has-text-weight-semibold">Comments:</span> <span class="has-text-grey-dark mathjax">Submitted to ASTRONET roadmap on behalf of the CTA consortium</span> </p> </li> <li class="arxiv-result"> <div class="is-marginless"> <p class="list-title is-inline-block"><a href="https://arxiv.org/abs/2105.09155">arXiv:2105.09155</a> <span>&nbsp;[<a href="https://arxiv.org/pdf/2105.09155">pdf</a>, <a href="https://arxiv.org/format/2105.09155">other</a>]&nbsp;</span> </p> <div class="tags is-inline-block"> <span class="tag is-small is-link tooltip is-tooltip-top" data-tooltip="High Energy Astrophysical Phenomena">astro-ph.HE</span> </div> <div class="is-inline-block" style="margin-left: 0.5rem"> <div class="tags has-addons"> <span class="tag is-dark is-size-7">doi</span> <span class="tag is-light is-size-7"><a class="" href="https://doi.org/10.1093/mnras/stab1455">10.1093/mnras/stab1455 <i class="fa fa-external-link" aria-hidden="true"></i></a></span> </div> </div> </div> <p class="title is-5 mathjax"> Probing the hadronic nature of the gamma-ray emission associated with Westerlund 2 </p> <p class="authors"> <span class="search-hit">Authors:</span> <a href="/search/astro-ph?searchtype=author&amp;query=Mestre%2C+E">Enrique Mestre</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Wilhelmi%2C+E+d+O">Emma de Ona Wilhelmi</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Torres%2C+D+F">Diego F. Torres</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Holch%2C+T+L">Tim Lukas Holch</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Schwanke%2C+U">Ullrich Schwanke</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Aharonian%2C+F">Felix Aharonian</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Parkinson%2C+P+S">Pablo Saz Parkinson</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Yang%2C+R">Ruizhi Yang</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Zanin%2C+R">Roberta Zanin</a> </p> <p class="abstract mathjax"> <span class="has-text-black-bis has-text-weight-semibold">Abstract</span>: <span class="abstract-short has-text-grey-dark mathjax" id="2105.09155v1-abstract-short" style="display: inline;"> Star-forming regions have been proposed as potential Galactic cosmic-ray accelerators for decades. Cosmic-ray acceleration can be probed through observations of gamma-rays produced in inelastic proton-proton collisions, at GeV and TeV energies. In this paper, we analyze more than 11 years of Fermi-LAT data from the direction of Westerlund 2, one of the most massive and best-studied star-forming re&hellip; <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('2105.09155v1-abstract-full').style.display = 'inline'; document.getElementById('2105.09155v1-abstract-short').style.display = 'none';">&#9661; More</a> </span> <span class="abstract-full has-text-grey-dark mathjax" id="2105.09155v1-abstract-full" style="display: none;"> Star-forming regions have been proposed as potential Galactic cosmic-ray accelerators for decades. Cosmic-ray acceleration can be probed through observations of gamma-rays produced in inelastic proton-proton collisions, at GeV and TeV energies. In this paper, we analyze more than 11 years of Fermi-LAT data from the direction of Westerlund 2, one of the most massive and best-studied star-forming regions in our Galaxy. In particular, we investigate the characteristics of the bright pulsar PSR J1023-5746 that dominates the gamma-ray emission below a few GeV at the position of Westerlund 2, and the underlying extended source FGES J1023.3-5747. The analysis results in a clear identification of FGES J1023.3-5747 as the GeV counterpart of the TeV source HESS J1023-575, through its morphological and spectral properties. This identification provides new clues about the origin of the HESS J1023-575 gamma-ray emission, favouring a hadronic origin of the emission, powered by Westerlund 2, rather than a leptonic origin related to either the pulsar wind nebula associated with PSR J1023-5746 or the cluster itself. This result indirectly supports the hypothesis that star-forming regions can contribute to the cosmic-ray sea observed in our Galaxy <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('2105.09155v1-abstract-full').style.display = 'none'; document.getElementById('2105.09155v1-abstract-short').style.display = 'inline';">&#9651; Less</a> </span> </p> <p class="is-size-7"><span class="has-text-black-bis has-text-weight-semibold">Submitted</span> 19 May, 2021; <span class="has-text-black-bis has-text-weight-semibold">originally announced</span> May 2021. </p> <p class="comments is-size-7"> <span class="has-text-black-bis has-text-weight-semibold">Comments:</span> <span class="has-text-grey-dark mathjax">In press in MNRAS</span> </p> </li> <li class="arxiv-result"> <div class="is-marginless"> <p class="list-title is-inline-block"><a href="https://arxiv.org/abs/2011.08586">arXiv:2011.08586</a> <span>&nbsp;[<a href="https://arxiv.org/pdf/2011.08586">pdf</a>, <a href="https://arxiv.org/format/2011.08586">other</a>]&nbsp;</span> </p> <div class="tags is-inline-block"> <span class="tag is-small is-link tooltip is-tooltip-top" data-tooltip="High Energy Astrophysical Phenomena">astro-ph.HE</span> </div> <div class="is-inline-block" style="margin-left: 0.5rem"> <div class="tags has-addons"> <span class="tag is-dark is-size-7">doi</span> <span class="tag is-light is-size-7"><a class="" href="https://doi.org/10.1093/mnras/staa3599">10.1093/mnras/staa3599 <i class="fa fa-external-link" aria-hidden="true"></i></a></span> </div> </div> </div> <p class="title is-5 mathjax"> The Crab nebula variability at short timescales with the Cherenkov Telescope Array </p> <p class="authors"> <span class="search-hit">Authors:</span> <a href="/search/astro-ph?searchtype=author&amp;query=Mestre%2C+E">Enrique Mestre</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Wilhelmi%2C+E+d+O">Emma de Ona Wilhelmi</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Khangulyan%2C+D">Dmitry Khangulyan</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Zanin%2C+R">Roberta Zanin</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Acero%2C+F">Fabio Acero</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Torres%2C+D+F">Diego F. Torres</a> </p> <p class="abstract mathjax"> <span class="has-text-black-bis has-text-weight-semibold">Abstract</span>: <span class="abstract-short has-text-grey-dark mathjax" id="2011.08586v2-abstract-short" style="display: inline;"> Since 2009, several rapid and bright flares have been observed at high energies (&gt;100 MeV) from the direction of the Crab Nebula. Several hypotheses have been put forward to explain this phenomenon, but the origin is still unclear. The detection of counterparts at higher energies with the next generation of Cherenkov telescopes will be determinant to constrain the underlying emission mechanisms. W&hellip; <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('2011.08586v2-abstract-full').style.display = 'inline'; document.getElementById('2011.08586v2-abstract-short').style.display = 'none';">&#9661; More</a> </span> <span class="abstract-full has-text-grey-dark mathjax" id="2011.08586v2-abstract-full" style="display: none;"> Since 2009, several rapid and bright flares have been observed at high energies (&gt;100 MeV) from the direction of the Crab Nebula. Several hypotheses have been put forward to explain this phenomenon, but the origin is still unclear. The detection of counterparts at higher energies with the next generation of Cherenkov telescopes will be determinant to constrain the underlying emission mechanisms. We aim at studying the capability of the Cherenkov Telescope Array (CTA) to explore the physics behind the flares, by performing simulations of the Crab Nebula spectral energy distribution, both in flaring and steady state, for different parameters related to the physical conditions in the nebula. In particular, we explore the data recorded by Fermi during two particular flares that occurred in 2011 and 2013. The expected GeV and TeV gamma-ray emission is derived using different radiation models. The resulting emission is convoluted with the CTA response and tested for detection, obtaining an exclusion region for the space of parameters that rule the different flare emission models. Our simulations show different scenarios that may be favourable for achieving the detection of the flares in Crab with CTA, in different regimes of energy. In particular, we find that observations with low sub-100 GeV energy threshold telescopes could provide the most model-constraining results. <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('2011.08586v2-abstract-full').style.display = 'none'; document.getElementById('2011.08586v2-abstract-short').style.display = 'inline';">&#9651; Less</a> </span> </p> <p class="is-size-7"><span class="has-text-black-bis has-text-weight-semibold">Submitted</span> 9 October, 2022; <span class="has-text-black-bis has-text-weight-semibold">v1</span> submitted 17 November, 2020; <span class="has-text-black-bis has-text-weight-semibold">originally announced</span> November 2020. </p> <p class="comments is-size-7"> <span class="has-text-black-bis has-text-weight-semibold">Comments:</span> <span class="has-text-grey-dark mathjax">11 pages, 9 figures; typos corrected</span> </p> <p class="comments is-size-7"> <span class="has-text-black-bis has-text-weight-semibold">Journal ref:</span> Volume 501, Issue 1, February 2021, Pages 337-346 </p> </li> <li class="arxiv-result"> <div class="is-marginless"> <p class="list-title is-inline-block"><a href="https://arxiv.org/abs/2007.04627">arXiv:2007.04627</a> <span>&nbsp;[<a href="https://arxiv.org/pdf/2007.04627">pdf</a>, <a href="https://arxiv.org/format/2007.04627">other</a>]&nbsp;</span> </p> <div class="tags is-inline-block"> <span class="tag is-small is-link tooltip is-tooltip-top" data-tooltip="High Energy Astrophysical Phenomena">astro-ph.HE</span> </div> <div class="is-inline-block" style="margin-left: 0.5rem"> <div class="tags has-addons"> <span class="tag is-dark is-size-7">doi</span> <span class="tag is-light is-size-7"><a class="" href="https://doi.org/10.1093/mnras/staa2045">10.1093/mnras/staa2045 <i class="fa fa-external-link" aria-hidden="true"></i></a></span> </div> </div> </div> <p class="title is-5 mathjax"> SNR G39.2-0.3, an Hadronic Cosmic Rays Accelerator </p> <p class="authors"> <span class="search-hit">Authors:</span> <a href="/search/astro-ph?searchtype=author&amp;query=Wilhelmi%2C+E+d+O">Emma de Ona Wilhelmi</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Sushch%2C+I">Iurii Sushch</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Brose%2C+R">Robert Brose</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Mestre%2C+E">Enrique Mestre</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Su%2C+Y">Yang Su</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Zanin%2C+R">Roberta Zanin</a> </p> <p class="abstract mathjax"> <span class="has-text-black-bis has-text-weight-semibold">Abstract</span>: <span class="abstract-short has-text-grey-dark mathjax" id="2007.04627v2-abstract-short" style="display: inline;"> Recent results obtained with gamma-ray satellites have established supernova remnants as accelerators of GeV hadronic cosmic rays. In such processes, CRs accelerated in SNR shocks interact with particles from gas clouds in their surrounding. In particular, the rich medium in which core-collapse SNRs explode provides a large target density to boost hadronic gamma-rays. SNR G39.2-0.3 is one of the b&hellip; <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('2007.04627v2-abstract-full').style.display = 'inline'; document.getElementById('2007.04627v2-abstract-short').style.display = 'none';">&#9661; More</a> </span> <span class="abstract-full has-text-grey-dark mathjax" id="2007.04627v2-abstract-full" style="display: none;"> Recent results obtained with gamma-ray satellites have established supernova remnants as accelerators of GeV hadronic cosmic rays. In such processes, CRs accelerated in SNR shocks interact with particles from gas clouds in their surrounding. In particular, the rich medium in which core-collapse SNRs explode provides a large target density to boost hadronic gamma-rays. SNR G39.2-0.3 is one of the brightest SNR in infrared wavelengths, and its broad multiwavelength coverage allows detailed modelling of its radiation from radio to high energies. We reanalyzed the Fermi-LAT data on this region and compare it with new radio observations from the MWISP survey. The modelling of the spectral energy distribution from radio to GeV energies favors a hadronic origin of the gamma-ray emission and constrains the SNR magnetic field to be at least ~100 uG. Despite the large magnetic field, the present acceleration of protons seems to be limited to ~10 GeV, which points to a drastic slow down of the shock velocity due to the dense wall traced by the CO observations, surrounding the remnant. Further investigation of the gamma-ray spectral shape points to a dynamically old remnant subjected to severe escape of CRs and a decrease of acceleration efficiency. The low-energy peak of the gamma-ray spectrum also suggests that that the composition of accelerated particles might be enriched by heavy nuclei which is certainly expected for a core-collapse SNR. Alternatively, the contribution of the compressed pre-existing Galactic cosmic rays is discussed, which is, however, found to not likely be the dominant process for gamma-ray production. <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('2007.04627v2-abstract-full').style.display = 'none'; document.getElementById('2007.04627v2-abstract-short').style.display = 'inline';">&#9651; Less</a> </span> </p> <p class="is-size-7"><span class="has-text-black-bis has-text-weight-semibold">Submitted</span> 13 August, 2020; <span class="has-text-black-bis has-text-weight-semibold">v1</span> submitted 9 July, 2020; <span class="has-text-black-bis has-text-weight-semibold">originally announced</span> July 2020. </p> <p class="comments is-size-7"> <span class="has-text-black-bis has-text-weight-semibold">Comments:</span> <span class="has-text-grey-dark mathjax">Accepted for publication in MNRAS 2020 July 8</span> </p> </li> <li class="arxiv-result"> <div class="is-marginless"> <p class="list-title is-inline-block"><a href="https://arxiv.org/abs/1912.01921">arXiv:1912.01921</a> <span>&nbsp;[<a href="https://arxiv.org/pdf/1912.01921">pdf</a>, <a href="https://arxiv.org/format/1912.01921">other</a>]&nbsp;</span> </p> <div class="tags is-inline-block"> <span class="tag is-small is-link tooltip is-tooltip-top" data-tooltip="High Energy Astrophysical Phenomena">astro-ph.HE</span> </div> <div class="is-inline-block" style="margin-left: 0.5rem"> <div class="tags has-addons"> <span class="tag is-dark is-size-7">doi</span> <span class="tag is-light is-size-7"><a class="" href="https://doi.org/10.1093/mnras/stz3421">10.1093/mnras/stz3421 <i class="fa fa-external-link" aria-hidden="true"></i></a></span> </div> </div> </div> <p class="title is-5 mathjax"> Prospects for the characterization of the VHE emission from the Crab Nebula and Pulsar with the Cherenkov Telescope Array </p> <p class="authors"> <span class="search-hit">Authors:</span> <a href="/search/astro-ph?searchtype=author&amp;query=Mestre%2C+E">Enrique Mestre</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Wilhelmi%2C+E+d+O">Emma de O帽a Wilhelmi</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Zanin%2C+R">Roberta Zanin</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Torres%2C+D+F">Diego F. Torres</a>, <a href="/search/astro-ph?searchtype=author&amp;query=Tibaldo%2C+L">Luigi Tibaldo</a> </p> <p class="abstract mathjax"> <span class="has-text-black-bis has-text-weight-semibold">Abstract</span>: <span class="abstract-short has-text-grey-dark mathjax" id="1912.01921v1-abstract-short" style="display: inline;"> The Cherenkov Telescope Array (CTA) will be the next generation instrument for the very high energy gamma-ray astrophysics domain. With its enhanced sensitivity in comparison with the current facilities, CTA is expected to shed light on a varied population of sources. In particular, we will achieve a deeper knowledge of the Crab nebula and pulsar, which are the best characterized pulsar wind nebul&hellip; <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('1912.01921v1-abstract-full').style.display = 'inline'; document.getElementById('1912.01921v1-abstract-short').style.display = 'none';">&#9661; More</a> </span> <span class="abstract-full has-text-grey-dark mathjax" id="1912.01921v1-abstract-full" style="display: none;"> The Cherenkov Telescope Array (CTA) will be the next generation instrument for the very high energy gamma-ray astrophysics domain. With its enhanced sensitivity in comparison with the current facilities, CTA is expected to shed light on a varied population of sources. In particular, we will achieve a deeper knowledge of the Crab nebula and pulsar, which are the best characterized pulsar wind nebula and rotation powered pulsar, respectively. We aim at studying the capabilities of CTA regarding these objects through simulations, using the main tools currently in development for the CTA future data analysis: Gammapy and ctools. We conclude that, even using conservative Instrument Response Functions, CTA will be able to resolve many uncertainties regarding the spectrum and morphology of the pulsar and its nebula. The large energy range covered by CTA will allow us to disentangle the nebula spectral shape among different hypotheses, corresponding to different underlying emitting mechanisms. In addition, resolving internal structures (smaller than ~ 0.02 degrees in size) in the nebula and unveiling their location, would provide crucial information about the propagation of particles in the magnetized medium. We used a theoretical asymmetric model to characterise the morphology of the nebula and we showed that if predictions of such morphology exist, for instance as a result of hydrodynamical or magneto-hydrodynamical simulations, it can be directly compared with CTA results. We also tested the capability of CTA to detect periodic radiation from the Crab pulsar obtaining a precise measurement of different light curves shapes. <a class="is-size-7" style="white-space: nowrap;" onclick="document.getElementById('1912.01921v1-abstract-full').style.display = 'none'; document.getElementById('1912.01921v1-abstract-short').style.display = 'inline';">&#9651; Less</a> </span> </p> <p class="is-size-7"><span class="has-text-black-bis has-text-weight-semibold">Submitted</span> 4 December, 2019; <span class="has-text-black-bis has-text-weight-semibold">originally announced</span> December 2019. </p> <p class="comments is-size-7"> <span class="has-text-black-bis has-text-weight-semibold">Comments:</span> <span class="has-text-grey-dark mathjax">in press in MNRAS</span> </p> </li> </ol> <div class="is-hidden-tablet"> <!-- feedback for mobile only --> <span class="help" style="display: inline-block;"><a href="https://github.com/arXiv/arxiv-search/releases">Search v0.5.6 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